Analysis of the Climate inside Multi-span Plastic Greenhouses under Different Shade Strategies and Wind Regimes |
He, Keshi
(Laboratory of Complex Dynamics Simulation, Department of Instrument Science and Engineering, School of Electronic, Information and Electrical Engineering, Shanghai Jiao Tong University)
Chen, Dayue (Laboratory of Complex Dynamics Simulation, Department of Instrument Science and Engineering, School of Electronic, Information and Electrical Engineering, Shanghai Jiao Tong University) Sun, Lijuan (Institute of Crop Science, Chinese Academy of Agricultural Sciences) Huang, Zhenyu (Laboratory of Complex Dynamics Simulation, Department of Instrument Science and Engineering, School of Electronic, Information and Electrical Engineering, Shanghai Jiao Tong University) Liu, Zhenglu (Shanghai Key Laboratory of Protected Horticultural Technology, Sunqiao Modern Agriculture Development Zone) |
1 | Al-Arifi, A. 1999. The influence of shading and evapotranspiration on a ventilated greenhouse environment. PhD Thesis, Ohio State University, Ohio, USA. |
2 | Al-helal, I.M. 1998. A computational fluid dynamics study of natural ventilation in arid region greenhouses. PhD Thesis, Ohio State University, Ohio, USA. |
3 | Baxevanou, C.A., D.K. Fidaros, T. Bartzanas, and C. Kittas. 2010. Numerical simulation of solar radiation, air flow and temperature distribution in a natural ventilated tunnel greenhouse. CIGR J. 12:48-67. |
4 | Boulard, T. and S. Wang. 2002. Experimental and numerical studies on the heterogeneity of crop transpiration in a plastic tunnel. Comput. Electron. Agric. 34:173-190. DOI |
5 | Boulard, T., S. Wang, and R. Haxaire. 2000. Mean and turbulent air flows and microclimatic patterns in an empty greenhouse tunnel. Agr. Forest. Meteorol. 100:169-181. DOI |
6 | Cohen, S. and M. Fuchs. 1999. Measuring and predicting radiometric properties of reflective shade nets and thermal screens. J. Agric. Eng. Res. 73:245-255. DOI |
7 | Fidaros, D.K., C.A. Baxevanou, T. Bartzanas, and C. Kittas. 2010. Numerical simulation of thermal behavior of a ventilated arc greenhouse during a solar day. Renew. Energ. 35:1380-1386. DOI |
8 | Katsoulas, N., A. Baille, and C. Kittas. 2001. Effect of misting on transpiration and conductances of greenhouse rose canopy. Agr. Forest. Meteorol. 106:233-247. DOI |
9 | Kichah, A., P.E. Bournet, C. Migeon, and T. Boulard. 2012. Measurement and CFD simulation of microclimate characteristics and transpiration of an impatiens pot plant in a greenhouse. Biosyst. Eng. 112:22-34. DOI |
10 | Kitta, E., N. Katsoulas, and D. Savvas. 2012. Shading effects on greenhouse microclimate and crop transpiration in a cucumber crop grown under Mediterranean condition. Appl. Eng. Agric. 28:129-140. DOI |
11 | Kittas, C. and A. Baille. 1998. Determination of the spectral properties of several greenhouse cover materials and evaluation of specific parameters related to plant response. J. Agric. Eng. Res. 71:193-202. DOI ScienceOn |
12 | Lee, I.B. and T.H. Short. 1998. Predicted effects of internal horizontal screens on natural ventilation of a multi-span greenhouse. In: 91st Annual International Meeting of ASAE, Paper No. 987014, Orlando, FL, USA, July 12-16. |
13 | Kittas, C., A. Baille, and P. Giaglaras. 1999. Influence of covering material and shading on the spectral distribution of light in greenhouses. J. Agric. Eng. Res. 73:341-351. DOI |
14 | Kittas, C., T. Bartzanas, and A. Jaffrin. 2003. Temperature gradients in a partially shaded large greenhouse equipped with evaporative cooling pads. Biosyst. Eng. 85:87-94. DOI ScienceOn |
15 | Launder, B.E. and D.B. Spalding. 1974. The numerical computation of turbulent flows. Comput. Method. Appl. M. 3:269-289. DOI ScienceOn |
16 | Miguel, A.F., N.J. van de Braak, and G.P.A. Bot. 1997. Analysis of the airflow characteristics of greenhouse screening materials. J. Agric. Eng. Res. 67:105-112. DOI |
17 | Mohammadi, B. and O. Pironneau. 1994. Analysis of the k-epsilon turbulence model. Wiley, New York, Masson, Paris. |
18 | Montero, J.I., P. Munoz, M.C.Sánchez-Guerrero, E. Medrano, D. Piscia, and P. Lorenzo. 2013. Shading screens for the improvement of the night-time climate of unheated greenhouses. Spain. J. Agr. Res. 11:32-46. DOI |
19 | Muñoz, P., J.I. Montero, A. Anton, and N. Iglesias. 2004. Computational fluid dynamic modelling of night-time energy fluxes in unheated greenhouse. Acta Hort. 691:403-410. |
20 | Nebbali, R., J.C. Roy, and T. Boulard. 2012. Dynamic simulation of the distributed radiative and convective climate within a cropped greenhouse. Renew. Energ 43:111-129. DOI |
21 | Sapounas, A.A., S. Hemming, H.F. De Zwart, and J.B. Campen. 2010. Influence of insect nets and thermal screens on climate conditions of commercial scale greenhouses: A CFD approach, p. 1-11. In: XVII th World Congr. Intl. Commission Agricultural Biosystems Eng. (CIGR). Quebec, Canada, 13-17 June, 2010. |
22 | Piscia, D., J.I. Montero, E.J. Baeza, and B.J. Bailey. 2012a. A CFD greenhouse night-time condensation model. Biosyst. Eng. 111:141-154. DOI |
23 | Piscia, D., J.I. Montero, M. Mele, J. Flores, J. Perez-Parra, and E.J. Baeza. 2012b. A CFD model to study above roof shade and on roof shade of greenhouses. Acta Hort. 952:133-139. |
24 | Richards, P.J. and R.P. Hoxey. 1993. Appropriate boundary conditions for computational wind engineering models using the k-ε turbulence model. J. Wind. Eng. Ind. Aerod. 46-47:145-153. DOI ScienceOn |
25 | Tong, G., D.M. Christopher, and B. Li. 2009. Numerical modelling of temperature variations in a Chinese solar greenhouse. Comput. Electron. Agric. 68:129-139. DOI |
26 | Vlamdimirova, S.V., R.A. Bucklin, and D.B. McConnel. 1996. Influence of shade level, wind velocity, and wind direction on interior air temperatures of model shade structure. Trans. ASAE 39:1825-1830. DOI |
27 | Willits, D.H. 2000. Intermittent application of water to an externally mounted, greenhouse shade cloth to modify cooling performance. Trans. ASAE 43:1247-1252. DOI |
28 | Willits, D.H. 2001. The effect of cloth characteristics on the cooling performance of external shade cloths for greenhouses. J. Agric. Eng. Res. 79:331-340. DOI |
29 | Willits, D.H. 2003. The effect of cloth temperature on the cooling efficiency of shade clothes in greenhouses. Trans. ASABE 46:1215-1221. |
![]() |